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Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University &...
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Transcript of Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University &...
![Page 1: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/1.jpg)
Physics of
Ultra-Peripheral Nuclear Collisions
Melek YILMAZ ŞENGÜLKadir Has University & İstanbul Technical University
M.Cem GÜÇLÜİstanbul Technical University
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• Lepton-pair production:
When heavy ions collide central or near-central in relativistic velocities, the Lorentz contracted high EM fields produce lepton pairs.
• Beam Lifetime (electron capture): Some created electron-positron pair can not go on
their way as a pair, the electron can be captured by the ion. As a result, charge-mass ratio of the ion and the beam lifetime differs.
Particle production from EM Fields
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• Non-perturbative and perturbative approach:
In single pair-production, to solve 2nd order Feynman diagrams,perturbative methods have been used. In multi-pair production, this approach have been modified by using higher order Feynman diagrams.
• Impact parameter dependence: We can calculate the impact parameter
dependence cross section.
![Page 4: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/4.jpg)
• Multi-pair production: For high energies and small impact parameters,
the perturbative results for single-pair production violates the unitarity. Therefore, lowest order calculation is not sufficient to describe the pair production. Multi-pair production must be studied.
• Test of strong QED: Heavy ion collisions in relativistic velocities gives
us chance to test the strong QED.
![Page 5: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/5.jpg)
Collisions of Heavy Ions
1Z
2Z21 RRb
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Lepton-Pair Production
Free Lagrangian
)()()()( xmixx 0L
)(:|)()(|:)(4
txxtxdS int0 LL
Interaction Lagrangian :
)()()()( xAxxxL
int
Semi Classical Action
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Four Vector Potentials of the Colliding Ions
A
)2()1( AAA
Electromagnetic vector potential
)1()1( 0AAz
0)2()1(0)2()1(
yy
xx
AA
AA
]2.exp[)()(8)1( 2222
0220 bqiqqq
qqZAyxz
z
![Page 9: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/9.jpg)
ee
time
Ion 1
Ion 2
Emits photon Emits photonPair Production
![Page 10: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/10.jpg)
Direct and Exchange Diagrams
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Total Cross Section
):():():():,():():():():,(
12)(
21)(
pTqpFpkFpqkA
pTqpFpkFpqkA
kq
kq
3 3 22( ) ( )
8
1 , : , :4 2
p k q pq k
d kd qd p A k q A k q
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)()(4):( 222222
22qfqG
qZqF ZE
)()()()(
1)()()(
)1()1(
22):(
qppk
p
uuuu
qkEEEpT
zs
z
s
zzqkspkq
Scalar part of EM Fields in momentum space of moving heavy ions
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)()(0
0 qFqbJbqdqdbd
Impact Parameter Dependence Cross Sections
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Monte-Carlo Method
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ca
qaeF
qF
35.1)0()(
The function of F(q) verses q for the charges of heavy-ions between and for the energies between =10-3400 . Each point has converged to within five percent. From the slope of this function the value of a can be determined as a=1.35 .
9020Z1,2
C
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23
22
3422
21
2
)()(ln2
121)(
ba
aZZCdbd
bbP C
)(2ln914)( 2
242
2212 Z
bbZZbP ClabC
Monte Carlo Method :
Equivalent Photon Method:
M. C. Güçlü, Nucl. Phys. A, Vol. 668, 207-217 (2000)
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2 2
3 22
28ln
27A Bb Z Z
m
2 2
2 22
28ln
9A BC
A A
Z Zf Z
m
2 2
2 22
28ln
9A BC
B B
Z Zf Z
m
2 2
22
56ln
9A BC
AB A B
Z Zf Z f Z
m
Born Approximation with Coulomb Corrections
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Total cross section of electron-positron pair production as a function of energy. The solid line is the Monte Carlo calculation, the dashed-dot line is the Born approximation with Coulomb corrections.
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2.0
0'
'
0'
'
kd
dkd
m
kd
dkd
Small Momentum Approximation
mk z mk
M.C. Güçlü at al. Phys. Rev. A 72 022724 (2005).
![Page 20: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/20.jpg)
Monte Carlo calculation of the differential cross section of pair production as a function of the longitudinal momentum of produced pairs.
![Page 21: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/21.jpg)
Monte Carlo calculation of the differential cross section of pair production as a function of the transverse momentum of produced pairs.
![Page 22: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/22.jpg)
0
03 22 2
0
121
2
Born
b C C CA B AB
dWd
Ansatz:
![Page 23: Physics of Ultra-Peripheral Nuclear Collisions Melek YILMAZ ŞENGÜL Kadir Has University & İstanbul Technical University M.Cem GÜÇLÜ İstanbul Technical.](https://reader036.fdocuments.us/reader036/viewer/2022062311/5a4d1af87f8b9ab059982aa6/html5/thumbnails/23.jpg)
Probability of pair production as a function of impact parameter for energies =10 and Au+Au collisions. The solid line is the Monte Carlo calculation, the dotted line is the Born approximation, and the dashed line is the Born approximation with Coulomb corrections.
Probability of pair production as a function of impact parameter for energies =10 and
Au+Au collisions. The solid line is the Monte Carlo calculation, the dotted line is the
Born approximation, and the dashed line is the Born approximation with Coulomb
corrections.
10
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Probability of pair production as a function of impact parameter for energies =100 and Au+Au collisions. The solid line is the Monte Carlo calculation, the dotted line is the Born approximation, and the dashed line is the Born approximation with Coulomb corrections.
Probability of pair production as a function of impact parameter for energies =10 and Au+Au collisions. The solid line is the Monte Carlo calculation, the dotted line is the Born approximation, and the dashed line is the Born approximation with Coulomb corrections.
100
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Probability of pair production as a function of impact parameter for energies =3400 and Au+Au collisions. The solid line is the Monte Carlo calculation, the dotted line isthe Born approximation, and the dashed line is the Born approximation with Coulombcorrections.
3400
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CONCLUSIONS1. We have obtained impact parameter dependence of lepton-pair production probability by using the semi-classical Monte Carlo Method.2. In single-pair production, for high energies and small impact parameters,
second order Feynman diagrams violates the unitarity. Therefore, higher order diagrams must be included.
3. When we include the higher order diagrams, we obtain multi-pair production probability as a Poisson distribution.
4. Born approximation with Coulomb corrections gives anomalous results for high energies.
5. Small-momentum approximation is not adequate to express pair-production probability.
6. We are successful to write a general expression for pair production
probability of Born approximation.7. Can we use this method to calculate the production of other particles such
as mesons, heavy leptons, may be Higgs particles ?